Machine for baking pastry cones.



s. LAWINDER. MACHINE FOR BAKING PASTRY CONBS.

APPLICATION FILED JAN. 2,1914.

1,1 19,918. Patented De0.8,1914.

4 SHEETS-SHEET 1.

S. E. WINDBR.

MACHINE FOR BAKING PASTRY CONES.

APPLICATION MLED m1111914.

Patented Dec.8,1914.

nnrrnn sra-Tas rarnNT oFFioE.

SAMUEL E. WINDER, or WALTHAM, MASSACHUSETTS, ASSIGNOR To APPLETON P. WILLIAMS, or WEST UiPToN, MASSACHUSETTS.

MACHINE FOR BAKING PASTRY ooNEs.

Specification o1 Letters Patent.

Appucation ined January e. 1914. semi No. 810.06.65.

lic it ltnoyvn that l, Saurer. E. VINDER, a citizen of the United States, and resident of Waltham. in the county of Middlesex and State of Massachusetts, have invented certaii'i nev.V and .iseful Improvements in Machines for Baking Pastry Cones, of which the following a specification.

'l`hc prcscnl invention relates to a coinplete automatic'machine for forming and halting' food articles. rl`he particular ma chine here illustrated is designed to produce edible cups of conical form generally known as ice cream cones, Wherefore in the follovving description l shall refer to the machine a machine for producing baked ice cream cones. and shall refer to the product of the machine as ice cream cones. I Wish it understood that in thus designating the niachine and itsy product l have not intended to limit. the scope of the invention or to im ply that the invention docs not embrace a machine designed and capable of producing other articles. indeed the invention in its broader aspects embraces machines for pord'lcing aiticles, ol' any character and material which are formed in a plastic state and are caused to retain their shape by application of heat. consider that essentially the appended claims embrace machines for producing any character of article from plastic material. whatever such material may be, however the shape of the finished article inav dili'er from a conical form. and whatever differences the machine may enbodj.' in its construction over the construction here illustrated. provided only the fundamental principlesvexplained in the vfollowing siliccification are present.

Having thus explained thatthe terms used to describe the articles produced by the machine have no limiting significance, but are purely descriptive. l will nov.' state the objects of the invention.

The primary object is to provid a complete and automatic machine for producing the, baked articles continuously, rapidly, and in large quantities.

Secondary objects have to do with im- ].irovements in the several parts of the machine, namely, the means for filling the molds; the construction of the molds themselves; means for delivering the baked articles from the molds; and the means for insuring the production of perfect finished articles, all as hereinafter more fully explained in the following specification in which the 4constructions contained in the present embodiment of my invention for carrying the foregoing objects into effect are described in detail.

Y in the accompanying drawings I have illustrated a machine in which my invention is embodied. This machine exemplifies in its construction the principles involved in the invention, although not necessarily representing the best and final forms of me.- chanical construction in which such principles may be embodied. With the under standing that the machine here represented is illustrative of the invention and is not intended to be taken as limiting the invention to any particular definite forms, I will proceed to a detailed description of such machine.

ln the drawings, Figure 1 is a plan View of the machine. Fig. 2 is a side elevation ofv the machine. Fig. 3 is a side elevation of one of the molding elements or units of the machine showing also the mechanism for operating the parts of such unit. Fig. l is an elevation on a larger scale of the same unit, the mold thereof being shown in Isection, and the operating mechanism being omitted. Fig. 5 is a front elevation of the meansl by which the molds or molding devices of the machine are filled with the yplastic material. Fig. G is a front elevation of the filling means, showing one of the molding units in position to receive the plastic material therefrom. Fig. 7 is a rear elevation of the parts shown in Fig. 6. Fig. 8 is a central cross section of the entire machine talien on line 8MS of Fig. 1. Fig. 9 is an elevation of one of the molding units in thc discharging position illustrating the operation of ejecting the finished articles. Fig. l0 is a` detail sectional view of one of the devices used to measure the batter and fill one of the molds of the machine. Fig. 1l is Patented Dec. 8, 1914.

Cil

s. undamentals ot the machine. iuciude a rotar carrier consisting of a centr-fi turntable and. a number of substantial. y radial arms each of which supports what may call for the purpose of description, one of the molding units. Such turntable and arms constitute a mold carrier. Each of such molding units contains a number of mold cavities, in the present case seven, and a corresponding number of plugs or cores which occupy such cavities and form the hollow interiors of the articles to be baked. l/Vhere, as in the present machine there are twelve units and each unit comprises seven mold cavities, a single complete cycle of the machine produces eighty-four cones or other articles. The turntable i surrounds a central post 3, and is fastened to a sleeve or hub al. which also surrounds the post and has a. rotary fit thereon. The hub 4 is supported on a ball bearing 5 resting on a ledge 6, which projects from the post. ribo hub has on its upper edge a flange i to rwhich the table l is bolted and such llange has in its periphery a number of notches E forming the teeth of a ratchet.

Mechanism for driving the turntabie With a step by .step motion is illustrated in Figs. l, 2, and 8. lower is delivered to a pulley 9 `mounted on a Shaft 3.0 which turns in bearings.l lmll fastened to the oase i2 beneath the turntable. Shaft l0 carries a seci y 13 which drives a belt 14, the latng also around a, pulley 'i5 on a aft 16, which carries a Worm 17 with a horizont? worm wheel 18 right shaftiour.L ed in a hearing terms nart of oracket rising from t.. oase Vl2 and carrying also the bearings for the worm shaft o. in place ci the belt 2 described. it obvious that an electric rotor or other prime mover may be and that'r such prime mover is the yit mechanically or the mechanism The worm sheet i9 carries a. crank in `to which a. connecting roti 22 Said rod extends to and conl Vth a bracket 23 which is attached oiects from a sleeve 2i ssrn ub 4 and rotatabn7 supported on in a raclret :23 carries a paw?. 'he flange 7, which pawl is the flange hy a spring 8 in the periphery or' such Harige. compiete rotation oi' the wheei i8 mor the pawi back and torta and thereby moves or turns the turntabe through one step of its rotation and the pawi back larriere it engages toward adapted to enter the not Lia aimais next notch. Th

fue side the hereby the pawi automa drawn upon the harirward ing paWl 2T is prciioed at .aint to engage one or the z; vent the turntable from being Hard when the pawi is carried one notch to 'the rift. notches is equal to i units, so that each cvcae of operations of the paWl places the turntable so the; one moldN ing unit is in position to be ri ,ai and another unit is in the dischargin' position; and the' turntable remains stationary irhie the paWl is moved baci( to the next notch, a long enough period to allow the empty unit to be lilled and the baked contents of the unit which is in the discharging position to be discharged.

i will now describe one of what call the molding units, of which as p reviously stated, there are tweive in the entire machine, each being a duplicate of the others. Such unit comprises two half`molds, 30, 3l mounted respectively upon frames or holders 32, 33 which are adapted' to swing about parallel pivots 34, respectively such pivots being mounted in ings 36, 3G and 37., respectively, which rise from a base plate 38 back from 4^uinibtr o secured to one of the arms zii .ie turntable. The trames 32, 33 are unted between the lugs which hold ther respective pivots, as appears from rigs. (a i Each of the haltl molds contains t ities., the number of which in seven, each conforming in shape to the i rior of half of the article to tio molded, the corresponding cavities ot the hait` @acids register with one another that -ien these half molds are brought togetliff as shown in Fig. 4, they provide a riunire. of complete and distinct moidin which, when the machine i' produce conical cups, as in. tl e com cal. in form. The id and arranged in the pr the largest diameter ot t at the bers conirities or ot the lds are A ivided yeers and mitten.

" and 33 bottom and the Walls verge upwardly to the chambers extend 'to t half molds so that brought together sma l' opening into the m having suflicient size i i i YBetween the swin' f frames is arranged a cros .3. Whit supports cores oraplugs 40 goed to he deu cupy the corresponding molding chambers centrally and provide narr'ow spaces between the cores and the walls of the corresponding chambers of sullicient dimension to give thewalls of the 'finished cups the desired thickness. The upper ends of the coresterminate sutliciently far below the external orifices of the molding chambers to permit the batter to cover the cores and thereby form closed bottoms in the cupsA Rods 41 and 42 are connected with the crossbar 39 and extend downwardly therefrom through the base plate 38 and through guides 43, 4st, respectively, on said base plate. The lower ends of said rods which protrude elow the base plate 3S pass through a bar 45 and have heads or nuts 46 underlyingr and bearing on the under side of said bar. Springs 47 surround the rods between the plate C38 and the bar l5 and press down upon the bar ll5, tending` to lower the same and so to withdraw the cores from the molds. This tendency is re sistcd by a lever 49, which is pivoted on a stud 50 carried by a bracket 5l which ex tends downwardly from, the base late 3S. The lever 49 carries a roll 52 underlying the crossbar 45 and bearing on a contact plate 53 attached to or formed integrallv with the under side of the bar 45; Vhen the lever 49 is upright, which is its normal position, it rigidly supports the; cores in the proper position within the mold cavities. When said lever is displaced to the position shown in Figs. 6 and 7, by means hereinafter described, it permits the springs 47 to withdraw thecores to a limited extent, which is only sufficient to .free them from the baked articles, and is not enough to remove the cores entirely, or nearly so, from the mold cavities.

yThe cores shown in Figs. 3, 4, andr9 may be solid or hollow as preferred. When they are made as solid blocks or bars they are attached to the crossbar or plate 39 by screws passing upwardly through said cross-- bar and tapped into the bases of the cores. l have designed a special form of core, illustrated in Fig. l2 which`is provided with means whereby heat may be conducted to its interior, whereby to accomplish the f baking of the cups more quickly than could otherwise be done. The hollow core is ignr-ted 40" and consists of a shell having an internal cavity 40h of substantially the same form as the external surface. A plug 40 is provided which passes through the crc"l` or plate 39 and into the base `of the hollow core 40", havinc a `tight driving lit in such hollow core. l`he plug 40C is tapered or otherwise. shaped in conformity with the outline cf the chamber 40 of the cof-e and its rnd extends 'well into the tin of the core. f The hase 40d of the plug 40 passes downward and is acted upon by the flame from a gasjet or other heating agent hereinafter described, being thereby hlghly heated, and serving to conduct heat into the core on thc lug prevents `the plug from falling out of the 'crossbar and also prevents the core from being lifted. At the same time removal of the core when necessary is made a very simple operation, since all that is needed is to drive out the pin 40e.y when the coio and plug together can be lifted from the crossbar.

rl he rims of the cups baked in the machine are defined and the cups are ejected by a member (sce Fig. 4) which lies above the cross bar 3f) between the f ames 32 and 33 and extends throughout the length of the molding unit. This member is a bar or plate having apertures to receive the several cores or plugs 40, which apertures are of the same size as the greatest diameter of said plugs, in which the latter have a close sliding fit. The lower ends of the cores are preferably cylindrical, as shown in Fig. 5, so that such cores may move slightly up and down within the member 55, and when raised as shown by full lines in Fig. 4, will entirely lill the apertures in the member 55 and prevent the batter from working between them arid the member 55. Said member 55, which will hereafter be called the ejector, for convenience of description, is locked in the position shown in Fig. 4 when the half molds are brought together. The locking means preferably consists of projections 5G on the frames 32 and 335 which enter notches in the opposite sides of the ejector when the frames are brought together, These projections and notches are pre ferablv inclined or wedge shaped and are located in a position suoli that thea' force the ejector tightl\v against the bottoni edges of the half molds. thereby closing the bottom of the molding cavities so tightly that none of the batter can escape. Preferably the cavities in the molds are enlarged at their'lower ends by grooves 57, as shown in Fig. 4.. into which the batter Inav How and, when baked. form a bead which thickens and strengthens the rim of the cup. The ejector is adapted to be elevated. when the half molds are separated. into ,the position shown. in Figs. 3 and il. To secure this result the ejector is attached to rods 5S, 55), near its opposite ends. which pass through guides (il). 6l, respectively attached to the base of the molding unit. and project to Uil lSO

ble distance belet` ends heink; joins.

62 is equipped mtl.- an antifriction roi edahyi a lever 566-.. vThen auch lever escriben., rods 58, 59 and on shown in Figs. ne i: thereby debat-:ed caps from the cores and f their; into the yreceptacle E7.

g. lhe half molds are opened ction of the halted cups, oseouently closed to receive the ,-.iatter and to contine the same during the aaking process, hylmeans of 'the following 'neChanisni-z A double linlr 68 consisting of :wo duniieate hars is Aconnected with the vframe and with a rocker 69., which is oivoted on apin carried by a bracket 71 Y ed to the turntable l. The connection oeween the linkand frame 32 is made by a jivot piny '7S-mounted in lugs 7 4 on the frame i2, while the connection ot the link with at rocker 69 made by pin 7 5 mounted in :lugs

`on the rocker. A similar link 77 is coniected with the frame 33 by means of a, 12in 78 mounted in lugs 79 ot the frame, vvhile the opposite end of such link 77 is connected with a pivot pin 8C mounted in lever 8l which is pivoted to a iin 82 iounted in lugs 83 of the rocker Lever carries an antitrietion roll 84.- on its nd. The oars which constitute link 77 .le outside ofthe har 88; and also outside of he rocker 69 and lever 81, whereby they are role to more into and outlet the same plane Jl'ith the "ink 68 witi'iout interfering with part. lt will noted the links 67 al" ever "il constitute a zegge mechanism et which the pivot is the Knuckle ad the 'rocker G9 is a shifting tnlcrnrn. l' depressed. as shown l il. the link 77 la moved i f same tinter the rocker link *18 l with famtrary hashing t molds this re- 'le mechalge pivot e produces a link 77 and ootward Until the ua f; tirmly together. "il y the pivote of.' the si arf imbstantiall in lline7 i r fnougrb aliove the line centers mechanism. whereby the halt ogether without posseparating. An aidf to render certain tight and the movement of into locking position.

Meent l form each of the hat: 77 is constituted in r Figs. 8 and. e. one of if c naar 55 two pai f.

whiehiparts over *"e other is nro- Vlded'wlth a 875 te. which mampinfv screw, 8G` Basses. such screw nein 89 having a nearing against the outer side of the lug 88 and having a threaded shank which screws into the lngr 87. The adjustment accoinplisluL by screw 89 enables Ypowerful pressure zo be exerted' in closing the half molds and secures the tension necessary to retain the toggle mechanism .in the locked position, while the clamp screw 86 insures that the outer swinging frame and halt mold will be thrown far enough outward to clear the baked cups when the latter are ejected.

Frames 32 and 33 are provided with lugs 91 and 92 adapted to strike on the base 38 and limit their outward movement. Ans the fulcrnm of the toggle linkage is 'i loating one, some provision, such as these lugs or equivalent means, is required to limit the outward ymovement of each swinging trame and insure that both frames will be moved when the mold is opened. lt is easily seen that if one of the frames should stick and if no means were provided to limit the movement of the other tramo the entire movement prodced hy the toggle linkage might be transmitted to the freely moving frame, causing the latter to swingJ tart-her Ythan necessary, and not moving the other frame at all. It generally happens that one of the frames moves more readilv than the other, so that when the toggle linkage is first operated the more easily movable trame is swung about its axis until its lug stops ity whereupon further movement of the toggle linkage swings the other frame.

For operating the toggle mechanism and thereby opening' and closing thc fnol'ds l provide cams 93 (Fig. and 94 ig. 2). Such cams in present enibodin nt of the machine are inclined plates or wir s which are tast to the central column 8 F chine and prriert into the nath wherein the roll 83 travel., n its revolution l out the column.

brought into the position shown in tall lines in Fig. 3 by the time the molding unit stops in the discharging position. The cam 94 'is located between the discharging and filling positions and is arranged reverseljf to cam 93. Its upper surface extends fro i a point below the depressed position of roll 84 on an upward slant in the direction of revolution to a point high enough to raise the lever 81 into the locking position shown in dotted lines in Fig. 3 and in full lines in Figs. 2 and S. Each molding unit is equipped with a toegle linkage equivalent to that described `and the two cams 93 and 01 serve to operate the toggle mechanisms ot all the molding units in succession. Thus cach molding unit is autoimitically opened as it comes into diS- charging position and is again automatically closed. before arriving at filling positicn. r1`he toggle mechanism above described, except for the automatic operating means. is gene ally similar, although differing in some features. to that shown and claimed in my Patent No. 1,097,576, dated May 19. 1'911, wherein 1 have shown a single mold with means Afor manual operation to open and close it.

The means Yfor filling or charging the molds consists of a set of mechanisms equivalent to pumps. which may for convenience of description be called pumps in this specification,whieh are equal in number to the mold cavities or elements of each molding unit and are so mounted as to co operate with said cavities when the molding unit is in charging position. For illustration of the charging or filling mechanism reference 1s directed to Figs. 2, 5, 6, and 7. The batter, or other Huid or plastic material which is to be treated in the machine is contained in a tank 95, which is supported by a post 9G at the front of the machine and is adapted to have a limited up and down movement with respect to the post. It is secured to a plate 97, with which is connected a lug 98 having pivot engagement 99 with a lever 100 pivoted at 101 on the bracket 102 on top ot the post 00. The plate 0T connected to two rods 10B arranged to move endv-fise vertically in guiding sleeves 101 made as parts of a bracke 105 secured to the post 00 and projecting over the charging position of the molds. From the bottom ot' the tank, tubes 106 cxtend downwardly and enter tclescopically other tubes 10T which contain measuring chambers and, for convenience, in the prescnt description may be termed measuring tubes. llachot the measuring tubes carries a projecting arm 108. which receives a rod 100 suitably atta'ched to the plate 97 and projecting downwardlv therefrom parallel to the tube 053 and through an eye in the arm 108. The spring 110 surrounding each tube 10G bears on the plate 07 and against the upper edge of the corresponding measuring tube 10T tending to lower the lat ter. the downward movement of which is limited by an :.Pdjustablc abutment in the .form ot' a nut 111 threaded on the rod 109 below the arm 108. One of the measuring tubes or devices is shown in Fig. 10.

.n The measurinor chamber in such tube is designated 112 and is bounded at one end by a valve 113, and its other end by a valve 114, The valve 113 seats against Aa partition 115 mounted in the inner or conducting tube 106, and is pressed against the under side ot such partition to close the aperture 11G by :i spring 11T which abuts against a lip or apertured end wall 118 of the conducting tube 100. Valve 111 seats against the under side of a partition 115) fixed in the measuring tube 10T, closing the aperture 120 in such partition and being pressed toward its seat on thf` under side ot the partition by a. spring 121 which reacts against a lip or end Mall at the bottom ot the measuring tube. .Xn outer sleeve 123 is fixed to the lower part of the nieasuring tube by a set. screw 1:24 and has a contracted lower end provided with an orifice 125, which makes a delivering nozzle. It will be observed that the valves 113 and 114 close upwardly, pre.'enting upward {low of the batter from the measuring chamber 112 and preventing air from entering such chamber, respectively, while they are adapted to yield when the pressure acting downwardly upon them is greater than the force of the springs which tend to seat them. The various measuring tubes are located in vertical alinement with the corresponding mold chambers ol any molding unit which occupies the charging position. Normally the measuring` tubes are elevated above the molding unit so that the latter may pass readily into charging position beneath them. Then when the lever 100 is actuated by means presently to be described, the batter tank and measuring tubes are lower-edf bringing the nozzle of each measuring tube into contact with the molding unit, in registry with thc orifice of the corresponding mold chamber or cavity. The motion given by the lever 100 is sufficient to produce further movement ot' the conducting tubes 106 a 'ter the measuring tubes have been arrested by contact ith the mold. whereupon the batter in each chamber 1152 is forced out of that chamber past the valve 114 and so through the now/le 115 and into the mold chamber u ith which it registers. At this time the valve 113 is closed and prevents the batter from being forced back toward the tank. ln this operation the rods 100 are lowered and the nuts 111 separated from the arms 10S. lhen the tank is raised the spring 110 holds the measuring tube against the mold until the nut 111 brings up against the arm 10b and raises the measuring tube. 1n other words. the spring 110 produces a relative movement between the measuring tube and conducting tube, causing the charnber 112 to be extended to its normal length and drawing a fresh charge ot' batter into $5 table indexing mechanism. Thus upon each such chamber. The valve 114 is'then closed and maintains sufficient vacuum in chamber 112 to cause unseating of the valve 113 and the flow of the batter thereinto. Adjustment of the nut 111 regulates the amount of movement permitted to the tube 107 relatively to the tube 106 and thereby regulates the charge which is ejected.

I will now describe the mechanism for oscillating the lever 100 and producing` the described charging operation. In the present embodiment ofthe machine this mechanismcomprises a cam 126 (see Fig. 1) which is mounted on the shaft carrying the worm wheel 18, previously described.- Said cam hasta groove in its under side which contains a roll 127 carried by a .connecting rod 128, Whiclirod has a wrist connection at 129 with an'arr 130vcarried by a rock shaft 131 having abearing in a sleeve 132 rigidly mounted ontlie post 96. A second arm 133 rigidly eotlinected `with the arm 130, either directly of `Hiro'ughthe rock shaft 131, has a wrist connection with a link 134 which is pivoted at 135 tofthe lever 100. The arms 130 and lfare slotted so that the wrist pins or pivots through which they are connected with' the connecting rod 128 and'link 134, respectively, may be shifted toward and Afrom the rock shaft so as to vary the angle of oscillation of the rock shaft and the throw of lever 100,respectively.y yIt willv be observed that the cam 126 has one o'set in its ca'm groove and that it rotates in the same time with the wheel 18 which operates the indexing movement of the table the batter feeder is operated to charge the molds which have been brought under the batter recep tacle by that movement. The cam is of course set so that the feeding of the batter is accomplished while the turntable is stationary. The rock shaft 131 is also used as a part of the transmission mechanism for oscillating the lever 66, already described, in

connection with the ejector which discharges the baked cones. Lever 66 is mounted on a pivot 136 which is fixed in a bracket 137 that rises from the machine base 12. Near the bracket and permissibly formed as a part of it is a bearing 138 in which a rock shaft 139 is adapted to turn. This rock shaft carries an arm 140 which is connected with a link 141, the latter being connected by a pivot 145 with the lever 66. l'Arm 1,40 and lever 66 have 4slots 142 and 143, respectively, in which the pivot pins 144 and 145 of the opposite ends of the link are held adjustably so as to permit alteration and adjustment of the throw and position of lever 66. Fixed to the rock shaft 139 is another arm 146 with which a link or connecting rod 147 is pivotally joined. Said link is also joined pivotally with a third arm 148 on the of the lever 66 is the depressed one shown in dotted lines in Fig. 3 and in that position the roll 64 of the approaching molding unit is adapted to enter its notch as the molding unit reaches discharging position. lVhen thereafter the lever 66 is raised and lowered, it raises and lowers the cone stripper-.or ejector 55 as alreadyv described. Roll 64 is brought into the plane in which lthe lever 66 oscillates, When the molding unit is in discharging position, and therefore the roll is retained in the notch 149 throughout the whole range of such oscillation. lVhen the molding unit is farther advanced after its contents have been ejected, the roll 64 passes readily out of the notch in the lever. and the roll carried by the next molding unit passes into such notch.

' After the molds have been charged the batter contained in them must of course be baked. The baking operation is carried out in an oven 150 which is of annular form con- .Centric with the center of the turntable and of such dimensions as to receive the molding` units. Preferably the oven is an annular box closed at the top and at the inner and outer sides but open at the bottom. It is supported by posts 151 at a level above the ends of the mold carrying arms 2, so that the molds rise from such arms through the open bottom into the interior of the oven. Heat for baking the cones is furnished by gas jets issuing from pipes 152 and 153 arranged near the inner and outer walls and near the bottom of the oven as shown in Fig. 8, between which the molds pass. These pipes are fed from a main 154 b v connections 155 and 156. The oven is interrupted for a portion of its extent suicient-to permit ejection of the baked cones and charging of the molds. Consequently one termination of the oven is near the diseharginar position and thc other termination is near the filling position, as shown in Fig. 1such positions of the molds being between the ends of the oven. Such ends are'open so that the molding units are enabled to pass readily into and out of the oven. It is contemplated also -to provide means additional to the oven for heating the molds, and for this purpose I provide each of the arms 2 with a gas pipe 157 which feeds nozzles 158 so arranged as to direct jets of flame against the baises of the molds and cores, whereby both to -keep the molds hot while out of the oven and t0 los augment the heating elect produced by the oven. A gas burner 158a is arranged beneath the crossbar 3f) and extends practically the whole length of thc mold between the guide sleeves 43, 44. lt is fed with gas through a pipe 15Sb from the pipe 157 and is supplied with outlets trom which flames issue and play against the crossbar 30 and the cores secured thereto. Where cores of the sort shown in Fig. 12 are used. the depending bases of the plugs of such cores are heated by the flames from the burner 1583. The pipe 157 is supplied bythe main 154 through a swivel connection 159 in the axis of the turntable.

An important feature of the invention resides in the means for closing the orifices of the molds after charging whereby to prevent escape of the batter when it begins to boil and swell upon being heated. The batter of course is in a liquid condition and cold when introduced into the molds. Not enough of the batter' is admitted to fill the spaces in the molds between the walls thereof and the' cores when the batter is cold, because the generation of steam and gases during baking is depended upon to fill these spaces with the batter. It the molding spaces were entirely filled in the first place there would be an excess of batter which would boil over when heated and be wasted. Accordingly 1 provide covers adapted to close the orifices of the mold spaces when the latter have been charged` and provide means for automatically opening such covers before charging and closing the covers after charging. The covers are shown at 160. They are carried by a bar 161. being conveniently formed as lugs` or ears integral with said bar and bent so as to lie over the ends of the mold chambers. Each molding unit is provided with such a bar. which is mounted on the half mold with provision for movement endwise. being conveniently held by guide l'n'ackets 162 fixed to the outer side of the half mold f1() near the ends thereof. The limited endwise movement of the bar 161 is sudicient to move the cover pieces 166 respectively aside from and over the orifices of the mold chambers. A rocker 163 carrying an antif'riction roll 16'1- is connected with the bar 161 by a link 165. A cam 166 is fixed upon a bar 167 which is attached to the rods 163 already described as being connected and movable with the tank 95. Said cam 166 has an inclined edge or surface whiclr'is directly above the roll 161 when the molding unit is in filling or charging position. `When the tank is depressed to charge the mold the cam 166 strikes roll'l and moves the bar 161 to one side. in the direction required to uncover the orifices o the mold chamliers. llpon the upward Inovel'nent of the tank a dog 168 strikes the under and opposite side of the roll 164 and returns the covers to closed position. Dog 169 is pivoted to a tongue 169 which lun down from the bar 167. The dog is equipped with an inclined lip or plate under which ther roll 16l passes when the molding unit comes into filling position. The dog then -rides up over the mold aud fa ls back ot' it when the molding unit comes to a stop. The covers thus provided and operated close the filling openings of the molding chambers tightly enough to prevent the batter from exuding during the baking and confine the pressure generated by the heat in the mold so as to compel the batter to fill all unoccupied spaces within the mold. In this way I am enabled to produce perfect cones without waste ot the batter.

The molding unit which is being charged/ is supported during the charging operation by a post 170 carrying a vertical antitriction roll 171 at its upper end which underlies the outer end ot the mold carrying arm 2 which is in the filling position. The base of this arm supports a fixed cam member 172 which serves to raise the cores into the normal position which they occum.Iv during baking. This cam device acts on a roll 173 (Figs. 6 and 7l carried by a downwardly hanging arm #19 ot the lever #19. previously described. which acts on the bar 45 supporting the. mold cores. As the molding unit comes into the charging position the vroll 173 travels up on the cam proiection 17'2. thereby swinging lever Llil until its upper arm is vertical. thus causing the roll to rise in contact with the contact plate of the crossbar l5. raising such bar. The lever carries a lug 17T' which overlies the bracket 51 whereon the lever 49 is pivoted. and by engaging the edge of such bracket limits the movement ot the lever. so that it can not swing more than a slight distance beyond the vertical and hence can not Jall over on the other side beyond the vertical position. Thus the lug 174- and the downward pressure of the crossbar l5 together lock the lever 4f) in the position where it rigidly supports the cores. `.lust before the moldingr unit reaches discharging position the lug 17-r strikes a finger 175 mounted upon the post 151a :it the right handside oft the machine. this post being one of those which support the oven. Tl

'le finger 173 is in the path traveled bv the lug 171. and it holds back such lug while the molding un-it passes on. whereby relative mmement of the lever 149 into the position shown in Figs. 6 and 7 is produced. The lug 171 is thus lowered and passes under the finger 175. Thereby the rigid support tor the cores is withdrawn and the cores are allowed to descend slightly by the aetion of" their own weight and ot the springs 47. until they are arrested by the har 39 which carries the cores coming into contact with the guiding sleeves 43, 4l. Thus the cores are freed from the baked cones immediately before the molds are opened.

176 (Figs. 1 and represents a brush which isi secured to the top of the oven and has bristles of an incombustible and a sufficiently stifi' material. such as steel wire. Such bristles project through an opening in the top of the oven far enough to sweep over the top of the molds as they travel under the brush. The purpose of the brush is to remove any drops of batter which may have dripped from the chargingtubes and lodged on the tops or covers of the molds. The brush is located near the farther end of the oven so that such drops or particles of batter will have become baked and may be easily removable by the time the molds pass the brush.

The manner and sequence of operation will have been readily understood fromgthe foregoing detailed description of mechanisms. The ratchet and pawl driving mechanism 18, 21, 22 and Q5 gives the turntable a step by step rotation, with pauses between the steps. each step of which brings one filled molding unit out of the oven into the discharging position. brings another empty molding unit into the charging position,

and brings a molding unit which had been charged during the'preceding dwell into the oven. the oven are moved step bv step until they finally emerge into the discharging position, being continuously subjected to the heat of the flames in the oven from the time the)7 enter until they emerge. When each molding unit commences the last step of its travel to the discharging position the finger 175 acts to permit withdrawal of the cores to free them from the baked cones. Then just before the molding unit reaches the dis- Charging position the cam 93 opens the half molds and leaves the cups resting freely upon the ejector bar lVben in the discharging position the lever 66 is operated bv the cam 126 through the rod 128. rock shaft 131, link 147, and rock shaft 149 to raise the ejector bar and the baked cones resting thereon. lVhen the cones are so raised their upper ends strike the inclined overhanging deflector 176 attached to the inner end of the receptacle 67. and bv that deflector are swung outwardlv as shown by dotted lines in Fig. 9 until they fall upon their sides on a lip 177 which projects rearwardlv from the bottom of the receptacle. Gravitv then causes the cups to slide along the inclined bottom ot the receptacle until thereof. The receptacle is L .rtitions Q, as 't wn in fl' t s compartments N Those molding units alreadv in' ber to thenumber of mold cavities in each molding unit. and the detlector has division walls 180 which provide channels alined With the spaces of the receptacle, whereby the cones from each molding cavity are caused to enter the proper compartment m the receptacle and are automatically nested with cones previously discharged. in an orderly manner, all as indicated in Fig. 9. A further step, or as in the present machine, two further steps, bring the emptied molding unit into the filling position. Before arriving in the latter position the cam 94 closes the half molds and the cam projection 172 raises the cores. Then the cam 196 actuates the rod 198, arms 130van'd 133, link 134 and lever 100 to depress the batter receptacle and eject charges of the batter into each of the mold cavities. This charging operation of course takes place at the same time that the discharge of the cones from another molding unit occurs.

It is to be understood thatthe essential principles embodied in the apparatus hereinbefore described may also be embodied in machines and mechanisms modified in various ways without departing from the spirit of the invention.l In the machine here illustrated there are twelve molding units, three of which are out of the oven at any one time and the other nine of which are in' the oven. This provides for a'stoppage of the moldingr unit in an intermediate position between the discharging and filling positions which may be utilized. if desired. to`

grease the mold. Or, if desired, the discharging and filling positions may be made contiguous to each other and the oven might then be continued to contain ten of the molding units at one time As the machine is shown here the molds are contained in the. oven during three-fourths of the time required for a complete cycle of the machine. I have found that this gives sufiicient time for thorough b'aking at the speed of operation which I have adopted. The speed of operation of course maybe varied and so may the number of molding units and the actual length of time which such units remain inthe oven, withoutdeparting from .thesnirit of the invention.

I desire to note that the terms vertical. upward, downward. movable. and stationary are all relative and are used Without limiting significance. Although in the machine as here shown'the turntable rotates in a horizontal plane about a vertical axis, and the ejector plate which forms the bottom of the mold is movable up and down. that is verticallv. vet l desire it understood that l do not limit the invention to a machine in which-the parts are so arranged. The essential meaning of vertical or up and down as used with respect to the ejector plate 55 is that of motion in a.

direction transverse to that in which the parts of the mold move in opening and closing, and when these terms are used in the claims as applied to the ejector' ,l intend that theyv shall be construed with this meaning. Substantially the same thing is true with respect to the movement of the batter tank or charging device and the measuring and ejecting tubes connected therewith. The condition essential to this invention is that the charging device shall be so moved that the discharge nozzles thereof approach and recede from the admission orifices of the molding unit which is in charging position.

it is not essential, although convenient, that this movement should be vertical and that the admission orifice of' the molding unit shouldbe at the top, because a positive force is applied by means of the valves 113 and 114 to eject the batter and to refill the measuring tubes, so that the vertical relation is not essential for this purpose. That is, the conducting and measuring tubes could be arranged horizontally and could move horizontally with operative effect, provided only the batter tank is so arranged that the batter therein rises above the inlets to the conducting tubes 106. Consequently the terms above and below,7 upward l and downward, used in the claims to describe the relation and movement of the charging vdevice with respect to the molding unit are relative and not limitin'.

1n the claims I have recited the mechanisin consisting of the lever 66, rock shaft 139, arm 140 and link 141, which actuates the ejector.r as being stationary. This term is used in the same sense as commonly used iii reference to a stationary engine, to mean that the mechanism as a whole does not change its location, but not meaning that the parts of the mechanism are not movable.

lYhat ,l claim and desire to secure b v Letters Patent is 1'. n automatic baking apparatus comA prising a rotating turntable, a plurality of molding units mounted on said turntable and movable therewith about a common axis. an oven concentric with such. axis and closed on three sides and open at the side adjacent to that part of the turntable whereon the molding units are supported, Wherbv said molding units are adapted to project into the oven, means for generating heat within the oven` mechanism for rotating said turntable with a step by step motion, nach ot said molding units includingl separable half molds containing a plurality7 of molding cavities. cores mounted between said halt molds in each of said cavities, an ejector arranged to close the bottom of the space between ysaid half moldsI and cores. means for withdrawing the cores of one of said units prior to the arrival of sucn unit in a definite discharging position, means for separatingT the half molds prior to arrival of such unit in such position, means for raising said ejector to remove the baked articles when in such position, a. batter container locate-il mei' another definite stopping position of the molding units, pumping devices projectinjgj downwardly from said container and communicating therewith. and means for so movingl said container and piiii'iping devices as to brine' said devices into connection with the mold' ig unit beneath the same and eject measured quantities of the batter into the mold cavities of such unit.

2. iin automatic baking machine comprising a pliiialitiv ot molding units each comprising a pair ci@ half molds movable together and apart and containing cavities which when the hall molds are brought together constitute molding chambers, said4 chambers having admission openings at the top of the half' nii lds, a turntable on which said moldingl units are supported, an ejector plate underlying said halt molds and torming the bottoni of the molding chambers therein, said ejector plate having' apertures centrally disposed with respect to said chambers, cores in the several molding chambers extending through said apertures and I'illing the same, guiding and connecting vmeans attached to said ejector plate arranged to permit an up and down movenient thereof, guiding and connecting meansattached to said cores also arranged to per- N mit and produce an up yand down movement of said cores, mechanism for giving a step b v step rotation to said turntable and perinitting the same to pause with the molding units thereof in certain definite positions, mechanism adjacent to oneof such positions for causing downward movement of the cores, mechanism adjacent to another position for causing upward movement of the cores, mechanism adjacent to one of said positions ,arranged to engage the guiding and connecting means of said ejector for raising and lowering the same when the molding unit is in one of such positions, means adjacent to one of such positions for causing separation of the halif molds and means adjacent to another of suoli positions for closing the halt molds together.

An automatic baking machine including in its construction a rotatable carrier,` a molding-unit mounted upon said Acarrier including frames mounted to swing on substantially horizontal and parallel axes which are approximately perpendicular to a line from said unit to the aXisof the carrier toward and from one another, partial molds mounted upon said frames above said axes and constructed so to forni a complete moldl when the frames are brought together and to be separated when the frames are swung apart, links connected to the respec tive frames, a rocker mounted upon the carine said links is con oiroted to "ald rocker7 to ,i in. iinks is conarranged in the raicn si" said lever arranged to artt said links Vmovement bee and ,nartial molds. including a rotat fnoid having two rts mounted upon said carrier and movable toward and from one another MuistantialliY radially of the aXis about which the carrier rotates, a fulcrum member mounted npon said carrier, a lever pivoted 'to said tulcrum member, a link connecting said fuicrum member with one of said mold holders. link connecting said lever with the other oi' said mold holders, whereby when said lever is swung the fulcrum member is moved and the mold holders are moved 'relatively to each other, and a stationary cam arranged in the path of a portion ot said lever tor oscillating the same in the movement ot' the carrier.

5. A molding and baking machine including in its construction a mold carrier, a mold mounted on said carrier having an internal molding chamber with an orifice at the top, means for moving said mold carrier with a step by step motion and causing the same to sten in definite locations, means for causing the contents oi" said mold to be ejected at one of such locations, a batter container.' mounted over another one of such locations of said mold, a charging tube extending trom the batter container in line with the external orifice ot' said mold and having a discharge noaaie.y said container and charging tube being together movable in line with the mold oritice and to an eX- tent more than sufficient to bring the outletof the discharae tube ix; Contact with the mold and in r1. strv iv'th the r'irifice there oiand means or moving mi receptacle and tube down and upti er end of discharge tube hun copie movement with resiAV et to th s part of said tube, whereb;y if" iv the mold while the reef, in motion, and the portie. ving valves arranged to om batter doring such relai 6. ln an an?. and baking articles. Y:ier movable rotatably abois., l divided mold, holders on which the parts of ysaid lmold are respectively uued, said holders being movablv moun` i fn said earner with provision iirr moron` 't toward and from one another radiaiiv ot the axis of said carrier, links pivoted to said holders respectively, a lever pivotally mounted apen the carrier and movable v thereof and connected For molding wart, means .nsport `he g' i #amo and toereby operate the toeggle'jon ln .fi machine iY the i racter ilesorti/acci, a mold carrier a plurality of moldiig units mounted upon said t rrier, means or moving said carrier intermittently,

y'hereby to cause the molding nits to stop .iined posisuccessively in certain predeti tions, a batter container located above one of said positions, conducting tubes leading downwardly from said container, measurl ing tubes mounted telescopicalijvv upon said conductingy tubes and having provision for movement thereon, said measuring tubes having outlets adapted to register with the intakes ot' the molding unit beneath the same, upwardly closing valves associated with said conducting and measuring tubes, respectively, whereby a, relative upward movement of the measuring tube eXpels the batter therefrom and a relativelv downward movement of said measuring tube causes it to be filled` and mechanism for g/roducing nownward and upward movements olfB the container and tubes toward and from the molding unit, the latter being se, placed that the measuring tubes engage e saine and are arrested before the cometion of a downward movement of the sontainer and conducting tubes.

in a machine ot' the eharacter described, a molding nuit comprising :i divided mold formed of separable sections. holders for said sections movable together d apart. an elector oiate normalv located :i tween said holders t the bottom oiS the moed., and a core passir: throrffrv said eiec- For into flic mold; a V:rricr bv en said i Y i giving "be writting mold bifldei's fi parts the mold wheYH Rines the 'holding it. i fr in. arfo means ic and the pa oi the l a re e il. ln a machine or the ab stormed, a molding uit comi g g Aflivided mold formed separa, section..

i'iolders for said sections movable together and apart. an o iector i .ate normallv located bctnfeen said holders ft the bi om ot the iuolrb and a coro passiva throizojli said ejector into tlnniold; Ifotatal carrier on which said enit is mozfied, i nrs for irivthe coriL a limited downward and np- Evard iniweinf'fnt, means operable by the enema travel of said unit for separating the mold holders and therewith the parts of the mold, and means for raising the ejector when the unit is in a certain position and the parts of the mold, are separated, said ejector and mold holders having interlock-v ing portions adapted to secure the ejector in a definite position when the holders are brought together.

lf). In an automatic bakingv machine in combinatioina carrier, a mold mounted on said carrier, means for moving said carrier step by step to bring said mold successively into different positions, a mold charging device located near-one of the positions of said mold, said mold having an orifice in its top and a charging device having an outlet, means 'lor bringing the outlet oi said charging device into registry with said orifice whereby to inject the material to be baked into the mold, a cover adapted to overlie and close the mold orifice, a holder for said cover mounted upon the mold and movable laterally, an autoinatic mechanism associated Vith said charging device for so moving said cover carrier as to displace the cover from its contiguous orifice prior to injection of the material and to return the cover over such orifice when the charging device is withdrawn.

ll. In a machine of the character described, a mold having a charging orifice, a cover adaptedl to close said orifice, and being displaceable so as to open the orilice. a charging device having an outlet, means for moving said, charging device to bring its outlet into registry with the mold, and mechanism associated with said means for displacing said cover when the device approaches, the mold and replacing the cover when the charging device is Withdrawn from the mold.

12. A machine of the character described, comprising an oven, means for heating the oven, a plurality of molding units, an ejector associated with each of said units, a` carrier for said units movable to cause said units to enter successively one end of the oven, to travel through the oven and to emerge from the opposite end thereoi, a charging device adjacent to the entrance end of the oven arranged above the path in which the molding units pass, mechanism Yfor moving said carrier step by step and causing the molding units to pause successively beneath such charging device. means for ejecting the material to be baked from said charging device into the molding unit. and means adjacent to the outlet end of the oven for actuating said ejector to remove the baked articles from the molding units upon emergence of such units from the oven.

13A ln a baking machine, a plurality of molding units, each comprising separable mold sections, j a bottom piece movable longitudinany of the molding unit, a carrier for said molding units, means for moving said carrier intermittently and causing the same to stopwhen the several units successively arrive in the same'i-position', means for separating 'the moldisections of each unit prior to arrival of the unit in such position, an extension passing from the bottom-piece of each unit parallel ,to the line of movement of said unit, and a stationary operating mechanism includin4 a lever movable in a` plane parallel to the line of movement of said bottom piece, said extension and operating mechanism having engaging elements' adapted to be engaged when the molding unit arrives in the aforesaid position and to be disengaged when the unit leaves such position.

ln ay machine` of the character described, a traveling mold carrier, a plurality ot' molds, each composed of separable portions mounted upon said carrier, a vertically movable ejector constituting the bottom of each mold, said ejector heilig movable-from the bottom toward the top of the mold, an extension depending from said ejector, a stationary operating mechanism for actuating the ejectors of all the molds including a rock arm and means for moving the same upwardly and downwardly, said arm having a jaw, and the extension of each ejector having a projection adapted to enter said jaw when the several molds are brought successively into lthe same position relatively to said arm, and to leave the. jaw when the mold leaves such position.

l5. ln a machine of the character described. a movable mold carrier, a plurality of molding units mounted upon said carrier and each including complemental separable members together forming a complete mold, an ejector arranged to constitute the bottom of such mold and movable back and forth in a direction transverse to thatr in which the parts of the mold move in separating, and an extension connected with said bottom; means for moving said carrier step by step and causing all the molding units to stop in the same position.

stationary mechanismd'o'cnted near Voneot' the stopping positions of the molding units constructed and arranged to cause separation of the parts of the mold as each unit approaches such position, and a stationary actuator including a relatively movable arm having a portion arranged to engage with the extension of each unit when the unit is in said position, and means for moving the said engaging portion of said actuator when thus engaged with said extension in the direction in which said bottom meinber is moved.

1G. A molding apparatus including a molding unit having an admission opening,

- a charge or". batter into the mold.

i7. ln a baking apparatus, a mold comprising separable sections, means for transporting said mold and stopping it in definite positions, a receptacle located opposite one of'the stopping positions ot said mold, having a bottom extending on an outward and downward slant from a point above said mold, and including also a detlector extending on an upvvard slant from a point at the inner side of said mold, and an ejector supporting the article baked in' themold and means tor raising such ejector when the parts of the mold are separated,'ivhereby the articles so raised are caused to strike said delector and are overturned and allowed to frell into said receptacle.

baking machine comprising an ennuiar oven, a carrier rotatably mounted n an axis centrally disposed with respect o said oven, said carrier having a portion ending under the oven, the oven being viosed at its top and its outer and inner rides and open at its under side and also at ts ends, being carried through less than a eomplete circle. a molding unit mounted Sinon said carrier and rising therefrom, adapted to pass through the open under side ot' the oven and to enter one end and emerge trom the opposite end of the oven during rotation oi the carrier. means for giving the carrier a step by step rotation and constructed to cause the carrier to pause when the mold has passed out ot' the oven, and to pause again when the moid is at a diti'erent position nea r the entrance end of the oven, said mold comprising separable sections divided on a piane approximately perpendicular to a, line drnn'in from the axis of the carrier to the moid. an ejector normally closing the bottom ot the mold and mounted with provision or vertical movement bctvvecn the partiy oi' the mold when the hitter are separated, an arm having a forked end oscillative'lj.' mr'iunted in a lined bearing adjaent to the ,outlet end ot the oven, a projection connected with said ejector plate ar ranged to enter the forli/ed end of said arm when the mold is arrested upon emergence from the oven, automatic mechanism for separating the parts of the mold upon arrivai thereot` at the said position of arrest, and means for giving said arm an u,V and down oscillation, whereby the ejector is caused fr; remove the contents of the inf 1d,

a baking apparatus, a traveling carrier^ a mold mounted upon said carrier and composed of separa ble sections an oven, means for moving said carrier with a step by step motion so as to carry the meid through said oven and cause arrest ot the carrier upon emergence of the mold Ytrom the oven, an ejector located at the bottom of the mold, an ejector operator located adjacent to the stopping place or" the mold upon its emergence from the oven, said ejector and operator having portions arranged to become interengaged upon arrival at the said stopping place, and mechanism for intermittently operating said ejector timed to operate the latter after arrival of the mold in said stopping place, whereby to cause'the ejector to displace the bakedcontents of the mold.

20. In a molding and baking apparatus the combination of a traveling carrier, a mold mounted upon said carrier and having a charging inlet, a core within the mold so disposed as to provide a conical annular space between, itself and the walls ot the mold communicating with said inlet, an oven arranged in the path of movement of said mold and adapted to receive the latter in the course of the iatters travel, a cover arranged adjacent to the charging inlet of the mold and movable over and aside from such inlet, while said core remains in the mold, automatic mechanism for displacing the cover trom the inlet and returning it over the inlet, and means for charging the mold while the cover is displaced from the inlet.

21. in a molding and baking apparatus the combination ot a traveling carrier, a mold mounted upon said carrier and having a charging inlet at its top, an oven arranged in the `oath of movement ot' said mold and adapted to receive the latter in the course of the latter-s travel, a cover arranged adjacent to the charging inlet ot the mold and niovable over and aside from such inlet, a charging deviccmovable toward and into registry with said inlet and away from the same. and mechanism operated b v said charging device for displacing said cover during the approaching movement of the charging device, and for replacing the cover over the inlet during the movement away kof the charging device.

2Q. In a machine of the character described, the combination of an oven, a moldingunit, a movable carrier on which said molding unit is mounted, said oven, unit and carrier, being arranged in such relation that the travel ot the carrier carries the molding unit into and out of the ovtn, means for moving said carrier intermitima pas

tently/'tarranged to arrest the carrier after emergence of the unit from the oven, said unit including a'divided mold having laterally separable portions and an ejector forming the bott j of said mold, automatic mechanism for separating the parts of the mold during the approach of the molding unit to its stopping position outsidebf the oven, and a stationary ejector actuator located adjacent to such stopping position, having a movable member arranged to make connection with said ejector when the unit arrives in such stopping position, and automatic mechanism ope-ratedV intermittently and in timed relation with the carrier moving means for causing the movable member of said actuator to move the ejector in a manner such as to eject the contents of the mold. l

23. In a machine for producing hollow molded articles, a mold divided lnto` separable movably mounted parts, a core occupying a position within said mold such as to provide a batter-receiving space between itself and the walls of the mold, an ejector surrounding said core and closing on'e end of said batter-receiving space, means for in# -gether,` for locating the ejector in a definite position` Y 25. `In a machine for producing molded articles, a divided mold, the parts .of which are separable and are internally recessed to provide a molding cavity, a member forming the bottom of said cavity and also constituting an ejector arranged between said parts,a core passing through said member into said cavity, said member and said parts having interlocking elements arranged to engage when the parts are closed together, for holding said member in a definite loca-` tion, and means for projecting said member when the said parts are separated, whereby to eject the contents of the mold.

26. In a machine of the character described the combination of a mold having a charging inlet, a device for charging batter into the mold comprising a pump having a discharge nozzle and a measuring chamber and outwardly opening valves forming the limits of said chamber, the said nozzle and one of the valves being movable relatively 'to the other of said valves, mechanism for so moving said charging device'asv to bring its lasV nozzle into contact with themold and into registry with the inlet thereof, said mechamsm being arranged to continue movementof the chargingderice after said nozzle has been arrested, whereby a relative movement between the valves of the measuring device is produced to cause a positive injection o'f the batter into the mold.

27. An automatic baking apparatus comprising an oven, a molding unit composed of separable moldsections inclos'ing a mold cavity, a core within-said cavity and an ejector arranged toclose one end Aof said cavity and mounted with capacity for movement toward the opposite end of the cavity, a carrier on which said unit is mounted, means for so moving said carrier as to transfer the unit into, through and out of the oven, means for causing a withdrawing movement of, the core, means for separating `the mold sections when the unit issues lfrom the oven, and means for-moving the ejector to remove the baked contents of the mold cavity while said sections areI separated.

28. In a baking apparatus, a mold, a core projecting into said mold'from the lower end thereof and being movable downwardly, a traveling carrier on which the mold is mounted, an abutment mounted on said carrier in engagement Awith 'said core normally holding the same elevated, and .g i Y means operated during the travel of the carv-rier for displacing said abutment, whereby the core is permitted to descend andbecome projecting into said mold fromv the lower end thereof and being movable downwardly, a traveling carrier on which the mold is mounted, an abutment mounted on said carrier in engagement with said core normally holding the same elevated, and means operdisengaged from the contents of the mold.

29. In a baking apparatus, a mold, a core'.

ated during the travel of the carrier for dis- Y placing said abutment, whereby the core .is permitted to descend and become disengaged from the contents-of the mold and means, also operatedrby the 'travel-of the carrier for `returning the abutment to its formerposition and thereby Aelevating the core. A

30, In a baking apparatus, a mold composed of separable sections inclosing a mold cavity, a core projecting into said cavity from one end thereof andv beingl movable outwardly from the cavity, yielding means tending constantly towithdraw said core, a traveling carrier on which the moldis mounted, mounted on said carrier and normallymara displaceable abutment also.

operated by the travel of the carrier for dise.v

` placing said abutment at a predetermined point inzsuch tlfwhereby saidyieldlng In "testimony y,'Whreo' I have affixed my meansfi" enabled `to fgiye a movement 0f signature, in px'fesence of two Witnesses. Withdrawalrt the Core Eo dsengage it from SAMUEL E. WIN DER. --the contents ofthe vmold, and means for' `Witnesses x 5A separating the moldsections subsequent to ARTHIR H. BRow-N,

such disengagement of the Core. P. W. vlEzzE'rrL 

